Iheozor-Ejiofor Zipporah, Kaur Lakhbir, Gordon Morris, Baines Patricia Anne, Sinopoulou Vasiliki, Akobeng Anthony K
University of Central Lancashire, School of Medicine, Harrington Building, Preston, Lancashire, UK.
Blackpool Victoria Hospital, Families Division, Blackpool, UK.
Cochrane Database Syst Rev. 2020 Mar 4;3(3):CD007443. doi: 10.1002/14651858.CD007443.pub3.
Ulcerative colitis is an inflammatory condition affecting the colon, with an annual incidence of approximately 10 to 20 per 100,000 people. The majority of people with ulcerative colitis can be put into remission, leaving a group who do not respond to first- or second-line therapies. There is a significant proportion of people who experience adverse effects with current therapies. Consequently, new alternatives for the treatment of ulcerative colitis are constantly being sought. Probiotics are live microbial feed supplements that may beneficially affect the host by improving intestinal microbial balance, enhancing gut barrier function and improving local immune response.
The primary objective was to determine the efficacy of probiotics compared to placebo, no treatment, or any other intervention for the maintenance of remission in people with ulcerative colitis. The secondary objective was to assess the occurrence of adverse events associated with the use of probiotics.
We searched CENTRAL, MEDLINE, Embase, and two other databases on 31 October 2019. We contacted authors of relevant studies and manufacturers of probiotics regarding ongoing or unpublished trials that may be relevant to the review, and we searched ClinicalTrials.gov. We also searched references of trials for any additional trials.
Randomised controlled trials (RCTs) that compared probiotics against placebo or any other intervention, in both adults and children, for the maintenance of remission in ulcerative colitis were eligible for inclusion. Maintenance therapy had to be for a minimum of three months when remission has been established by any clinical, endoscopic,histological or radiological relapse as defined by study authors.
Two review authors independently conducted data extraction and 'Risk of bias' assessment of included studies. We analysed data using Review Manager 5. We expressed dichotomous and continuous outcomes as risk ratios (RRs) and mean differences (MDs) with 95% confidence intervals (CIs). We assessed the certainty of the evidence using the GRADE methodology.
In this review, we included 12 studies (1473 randomised participants) that met the inclusion criteria. Participants were mostly adults. The studies compared probiotics to placebo, probiotics to 5-aminosalicylic acid (5-ASA) and a combination of probiotics and 5-ASA to 5-ASA. The studies ranged in length from 12 to 52 weeks. The average age of participants was between 32 and 51, with a range between 18 and 88 years. Seven studies investigated a single bacterial strain, and five studies considered mixed preparations of multiple strains. The risk of bias was high in all except three studies due to selective reporting, incomplete outcome data and lack of blinding. This resulted in low- to very low-certainty of evidence. It is uncertain if there is any difference in occurrence of clinical relapse when probiotics are compared with placebo (RR 0.87, 95% CI 0.63 to 1.18; 4 studies, 361 participants; very low-certainty evidence (downgraded for risk of bias, imbalance in baseline characteristics and imprecision)). It is also uncertain whether probiotics lead to a difference in the number of people who maintain clinical remission compared with placebo (RR 1.16, 95% CI 0.98 to 1.37; 2 studies, 141 participants; very low-certainty evidence (downgraded for risk of bias, imbalance in baseline characteristics and imprecision)). When probiotics are compared with 5-ASA, there may be little or no difference in clinical relapse (RR 1.01, 95% CI 0.84 to 1.22; 2 studies, 452 participants; low-certainty evidence) and maintenance of clinical remission (RR 1.06, 95% CI 0.90 to 1.25; 1 study, 125 participants; low-certainty evidence). It is uncertain if there is any difference in clinical relapse when probiotics, combined with 5-ASA are compared with 5-ASA alone (RR 1.11, 95% CI 0.66 to 1.87; 2 studies, 242 participants; very low-certainty evidence (downgraded due to risk of bias and imprecision)). There may be little or no difference in maintenance of remission when probiotics, combined with 5-ASA, are compared with 5-ASA alone (RR 1.05, 95% CI 0.89 to 1.24; 1 study, 122 participants; low-certainty evidence). Where reported, most of the studies which compared probiotics with placebo recorded no serious adverse events or withdrawals due to adverse events. For the comparison of probiotics and 5-ASA, one trial reported 11/110 withdrawals due to adverse events with probiotics and 11/112 with 5-ASA (RR 1.02, 95% CI 0.46 to 2.25; 222 participants; very low-certainty evidence). Discontinuation of therapy was due to gastrointestinal symptoms. One study (24 participants) comparing probiotics combined with 5-ASA with 5-ASA alone, reported no withdrawals due to adverse events; and two studies reported two withdrawals in the probiotic arm, due to avascular necrosis of bilateral femoral head and pulmonary thromboembolism (RR 5.29, 95% CI 0.26 to 107.63; 127 participants; very low-certainty evidence). Health-related quality of life and need for additional therapy were reported infrequently.
AUTHORS' CONCLUSIONS: The effectiveness of probiotics for the maintenance of remission in ulcerative colitis remains unclear. This is due to low- to very low-certainty evidence from poorly conducted studies, which contribute limited amounts of data from a small number of participants. Future trials comparing probiotics with 5-ASA rather than placebo will better reflect conventional care given to people with ulcerative colitis. Appropriately powered studies with a minimum length of 12 months are needed.
溃疡性结肠炎是一种影响结肠的炎症性疾病,年发病率约为每10万人中10至20例。大多数溃疡性结肠炎患者可以实现缓解,但仍有一部分患者对一线或二线治疗无反应。相当一部分患者会出现当前治疗的不良反应。因此,一直在寻求治疗溃疡性结肠炎的新替代方法。益生菌是活的微生物饲料补充剂,可能通过改善肠道微生物平衡、增强肠道屏障功能和改善局部免疫反应而对宿主产生有益影响。
主要目的是确定与安慰剂、不治疗或任何其他干预措施相比,益生菌在维持溃疡性结肠炎患者缓解方面的疗效。次要目的是评估与使用益生菌相关的不良事件的发生情况。
我们于2019年10月31日检索了Cochrane系统评价数据库、MEDLINE、Embase和其他两个数据库。我们联系了相关研究的作者和益生菌制造商,询问可能与本综述相关的正在进行或未发表的试验,并检索了ClinicalTrials.gov。我们还检索了试验的参考文献以寻找任何其他试验。
比较益生菌与安慰剂或任何其他干预措施,用于维持成人和儿童溃疡性结肠炎缓解的随机对照试验(RCT)符合纳入标准。根据研究作者定义的任何临床、内镜、组织学或放射学复发情况确定缓解后,维持治疗必须至少持续三个月。
两位综述作者独立进行数据提取和对纳入研究的“偏倚风险”评估。我们使用Review Manager 5分析数据。我们将二分法和连续结果表示为风险比(RRs)和平均差(MDs),并带有95%置信区间(CIs)。我们使用GRADE方法评估证据的确定性。
在本综述中,我们纳入了12项符合纳入标准的研究(1473名随机参与者)。参与者大多为成年人。这些研究将益生菌与安慰剂、益生菌与5-氨基水杨酸(5-ASA)以及益生菌与5-ASA的组合与5-ASA进行了比较。研究时长从12周至52周不等。参与者的平均年龄在32至51岁之间,范围为18至88岁。7项研究调查了单一菌株,5项研究考虑了多种菌株的混合制剂。除3项研究外,所有研究的偏倚风险都很高,原因是选择性报告、结果数据不完整和缺乏盲法。这导致证据的确定性为低至极低。与安慰剂相比,益生菌在临床复发发生率上是否存在差异尚不确定(RR 0.87,95% CI 0.63至1.18;4项研究,361名参与者;极低确定性证据(因偏倚风险、基线特征不平衡和不精确性而降级))。与安慰剂相比,益生菌在维持临床缓解的人数上是否导致差异也不确定(RR 1.16,95% CI 0.98至1.37;2项研究,141名参与者;极低确定性证据(因偏倚风险、基线特征不平衡和不精确性而降级))。当益生菌与5-ASA相比时,临床复发可能几乎没有差异(RR 1.01,95% CI 0.84至1.22;2项研究,452名参与者;低确定性证据),维持临床缓解方面也可能几乎没有差异(RR 1.06,95% CI 0.90至1.25;1项研究,125名参与者;低确定性证据)。当将益生菌与5-ASA联合使用与单独使用5-ASA进行比较时,临床复发是否存在差异尚不确定(RR 1.11,95% CI 0.66至1.87;2项研究,242名参与者;极低确定性证据(因偏倚风险和不精确性而降级))。当将益生菌与5-ASA联合使用与单独使用5-ASA进行比较时,在缓解维持方面可能几乎没有差异(RR 1.05,95% CI 0.89至1.24;1项研究,122名参与者;低确定性证据)。在报告的研究中,大多数将益生菌与安慰剂比较的研究记录没有严重不良事件或因不良事件而退出的情况。对于益生菌与5-ASA的比较,一项试验报告益生菌组有11/110因不良事件而退出,5-ASA组有11/112(RR 1.0;22名参与者;极低确定性证据)。治疗中断是由于胃肠道症状。一项比较益生菌与5-ASA联合使用与单独使用5-ASA的研究(24名参与者)报告没有因不良事件而退出的情况;两项研究报告益生菌组有两例因双侧股骨头缺血性坏死和肺血栓栓塞而退出(RR 5.29,95% CI 0.26至107.63;127名参与者;极低确定性证据)。很少报告与健康相关的生活质量和额外治疗需求。
益生菌在维持溃疡性结肠炎缓解方面的有效性仍不清楚。这是由于研究开展不佳导致证据确定性低至极低,且研究参与者数量少,提供的数据有限。未来将益生菌与5-ASA而非安慰剂进行比较的试验将更好地反映给予溃疡性结肠炎患者的常规治疗。需要进行适当样本量且最短时长为12个月的研究。
